
EQUIVALENT MECHANICAL PARAMETERS OF OSCILLATING ROTARY MOTORS USED IN TRANSPORT EQUIPMENT
Author(s) -
Arūnas Andziulis,
Jonas Vaupšas,
E. Guseinovienė,
Rimantas Didžiokas,
Danielius Adomaitis
Publication year - 2006
Publication title -
transport
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.437
H-Index - 31
eISSN - 1648-4142
pISSN - 1648-3480
DOI - 10.3846/16484142.2006.9638078
Subject(s) - mechanical engineering , mechanism (biology) , piston (optics) , inertia , automotive engineering , gas compressor , engineering , lubrication , torque , piston pump , power (physics) , crankcase , mechanical system , crank , internal combustion engine , physics , optics , classical mechanics , wavefront , quantum mechanics , cylinder , thermodynamics
In various appliances and equipment of sundry transport means there is a lot of diverse mechanisms of periodical movement. So, the various piston or membrane pumps of fuel feeding and lubrication systems, circulation pumps, air and refrigerating coolant compressors, etc. are the typical examples of innovative and well promising application of the oscillating motors. In these cases the moving part of a motor can be directly connected to the working body of driven mechanism without the additional gears. Consequently, the drive can be simplified in design and improved in efficiency and reliability. Application of the oscillating rotary motors, if used in the aforesaid devices, strictly depends on specific properties of mechanical system of a motor aggregated with the driven mechanism and considered as the one‐piece unit on the whole. So, this study analyses how the properties of mechanical system, comprised of two moving parts interconnected eccentrically or centrically, can be evaluated by the equivalent rotational inertia, equivalent mass and by equivalent mechanical power factor which, in turn, determine the operating characteristics and basic possibilities of the motor.